Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
about
Ubiquity and quantitative significance of detoxification catabolism of chlorophyll associated with protistan herbivoryThe formation of electronically excited species in the human multiple myeloma cell suspensionNaphthoxazole-based singlet oxygen fluorescent probes.Peroxyoxalate Chemiluminescent Reaction as a Tool for Elimination of Tumour Cells Under Oxidative Stress.De novo generation of singlet oxygen and ammine ligands by photoactivation of a platinum anticancer complex.Enhanced singlet oxygen production by photodynamic therapy and a novel method for its intracellular measurementOxidative damage of U937 human leukemic cells caused by hydroxyl radical results in singlet oxygen formation.Nano-enabled SERS reporting photosensitizers.Accelerated cell death 2 suppresses mitochondrial oxidative bursts and modulates cell death in Arabidopsis.Evaluation of the catalytic activity and cytotoxicity of palladium nanocubes: the role of oxygen.Optimization of a nanomedicine-based silicon phthalocyanine 4 photodynamic therapy (Pc 4-PDT) strategy for targeted treatment of EGFR-overexpressing cancers.X-ray induced singlet oxygen generation by nanoparticle-photosensitizer conjugates for photodynamic therapy: determination of singlet oxygen quantum yield.Molecular imaging of retinal disease.Evaluation of diethyl-3-3'-(9,10-anthracenediyl)bis acrylate as a probe for singlet oxygen formation during photodynamic therapyGold nanocage-photosensitizer conjugates for dual-modal image-guided enhanced photodynamic therapy.Nanoscintillator-mediated X-ray inducible photodynamic therapy for in vivo cancer treatment.The contribution of reactive oxygen species to the photobleaching of organic fluorophores.A comprehensive tutorial on in vitro characterization of new photosensitizers for photodynamic antitumor therapy and photodynamic inactivation of microorganisms.Light-Activated Pharmaceuticals: Mechanisms and Detection.Palladium-Based Nanomaterials: A Platform to Produce Reactive Oxygen Species for Catalyzing Oxidation Reactions.Use of fluorescent probes for ROS to tease apart Type I and Type II photochemical pathways in photodynamic therapy.On the in vivo photochemical rate parameters for PDT reactive oxygen species modeling.ZnO nanoparticles sensitized by CuInZn x S2+x quantum dots as highly efficient solar light driven photocatalysts.Protein-encapsulated bilirubin: paving the way to a useful probe for singlet oxygen.Neutrophils generate microparticles during exposure to inert gases due to cytoskeletal oxidative stress.Real-time luminescence microspectroscopy monitoring of singlet oxygen in individual cells.The singlet-oxygen-sensitized delayed fluorescence in mammalian cells: a time-resolved microscopy approach.Photosensitization of singlet oxygen and in vivo photodynamic therapeutic effects mediated by PEGylated W(18)O(49) nanowires.Feasibility study on quantitative measurements of singlet oxygen generation using singlet oxygen sensor green.New insight into singlet oxygen generation at surface modified nanocrystalline TiO2--the effect of near-infrared irradiation.Microscopic time-resolved imaging of singlet oxygen by delayed fluorescence in living cells.A Highly Efficient Chemiluminescence Probe for the Detection of Singlet Oxygen in Living Cells.Generation of reactive oxygen species in thylakoids from senescing flag leaves of the barley varieties Lomerit and Carina.Singlet oxygen signatures are detected independent of light or chloroplasts in response to multiple stresses.Photophysical properties, singlet oxygen generation efficiency and cytotoxic effects of aloe emodin as a blue light photosensitizer for photodynamic therapy in dermatological treatment.NanoSOSG: a Nanostructured Fluorescent Probe for the Detection of Intracellular Singlet Oxygen.A mechanistically-distinct approach to fluorescence visualization of singlet oxygen.Quantification of light-induced miniSOG superoxide production using the selective marker, 2-hydroxyethidium.Early transcriptional defense responses in Arabidopsis cell suspension culture under high-light conditions.MicroRNA-Responsive Drug Release System for Selective Fluorescence Imaging and Photodynamic Therapy In Vivo.
P2860
Q28714220-FA921525-CFB0-42E4-A271-505FB0174AB7Q30389450-D679FE36-A708-4F64-9A6C-99501E1F2A58Q30639332-6EE7E374-6735-4FF8-8C23-32042F32A6AAQ33794262-72F841DD-23FA-4A9D-A50B-5588D6138CDAQ34503145-4E3ACEC1-3C06-4CA2-973B-CF54C6E3B974Q34711271-D6958E66-19C8-4BC8-AB8C-E0DE45709CE1Q35137396-9AB4CAF4-518F-4936-84A0-AE38B9490B88Q35576471-914F39BE-5AAA-4811-8824-AAB1DD40D635Q35742597-FEDD47E0-D5C0-4FEB-A56B-365B7553274DQ36328128-FD8BE8B9-A22C-4859-81A1-8FD708FE351DQ36400084-CF11DD7B-4E5A-42EF-A12A-E5328DB2A323Q36511975-90E77D42-BDEF-4DD6-B044-E40917152C48Q36696874-026E9C20-800D-4055-8096-2A0C1FD70104Q36712129-9596369F-C25C-4EA5-A7F0-194C56172ACCQ37511124-2D817176-892A-4428-AC38-8EB6E1D33A4CQ37584064-ADF2C29B-8C23-4B97-ACE3-2037D167F428Q37647091-06EC9533-D4C4-462A-A1C4-AE8D574B3EF8Q38114097-4147CA6E-853D-42E2-94F1-B314B800B555Q38132736-E134C9FB-0049-427F-83B1-FF8ADCDDA4A8Q38595876-9851371B-0202-450D-BA91-729F130AF61AQ38884895-1774D5D6-5536-439E-816F-AC1F5A22384EQ38976558-0142E752-7604-4036-A018-D02359D99890Q41070203-C72F1D3D-6965-42F1-BCFF-83457B0CB4FCQ41632556-1EE90D8A-0623-412C-9219-A8AE63B4CC68Q42720751-771C2499-F953-4FE7-8618-3D1B9D81F13FQ42800829-69B52614-1B59-4FA2-BE7B-10E84E03420AQ42831287-E3F85652-DE0A-481A-AADF-FF1B7B8CBFD3Q44085749-5BD640C4-B481-49FE-BF33-5E16BCB3E894Q45028237-871C355E-ABA1-4C4A-B34D-447A54F38B66Q45752961-EA180FBB-9836-4C75-802E-3EC1D8709D9FQ46303026-398237BD-7207-407E-B38E-4F77D2C3D4C2Q46330036-ADFD02D2-1839-44EF-966A-8F4545951664Q46757002-4B4A9296-2BC2-43B8-92D6-AD0F6262D335Q46792688-CFC207F3-7F15-4EF5-8AF4-B2434E95F73CQ47836725-731AF015-F4FC-4192-B7D1-D9C1C98FCFBDQ48284559-A36B14E5-5CEF-46EC-8DC7-4C7B59A5739DQ48640165-C61F56A3-5294-4571-AD2E-67FD4CF7505DQ49900224-FA461530-60BA-471B-8A8E-2AA585F54727Q50521666-7B18CDF4-46FF-42AF-BA7E-A68185EB90ADQ50787878-C2C3C4FD-F45F-46AB-BEEB-26F3D473A34A
P2860
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@en
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@nl
type
label
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@en
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@nl
prefLabel
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@en
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@nl
P2093
P2860
P50
P1476
Singlet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cell.
@en
P2093
Anita Gollmer
Brian Wett Pedersen
Frances H Blaikie
Jacob Arnbjerg
Kim Daasbjerg
P2860
P304
P356
10.1111/J.1751-1097.2011.00900.X
P577
2011-02-22T00:00:00Z